Monitoring protein unfolding transitions by NMR-spectroscopy

IF 1.3 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Biomolecular NMR Pub Date : 2022-01-04 DOI:10.1007/s10858-021-00389-3

Matthias Dreydoppel, Jochen Balbach, Ulrich Weininger

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引用次数: 3

Abstract

NMR-spectroscopy has certain unique advantages for recording unfolding transitions of proteins compared e.g. to optical methods. It enables per-residue monitoring and separate detection of the folded and unfolded state as well as possible equilibrium intermediates. This allows a detailed view on the state and cooperativity of folding of the protein of interest and the correct interpretation of subsequent experiments. Here we summarize in detail practical and theoretical aspects of such experiments. Certain pitfalls can be avoided, and meaningful simplification can be made during the analysis. Especially a good understanding of the NMR exchange regime and relaxation properties of the system of interest is beneficial. We show by a global analysis of signals of the folded and unfolded state of GB1 how accurate values of unfolding can be extracted and what limits different NMR detection and unfolding methods. E.g. commonly used exchangeable amides can lead to a systematic under determination of the thermodynamic protein stability. We give several perspectives of how to deal with more complex proteins and how the knowledge about protein stability at residue resolution helps to understand protein properties under crowding conditions, during phase separation and under high pressure.

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核磁共振光谱监测蛋白质展开转变

与光学方法相比，核磁共振光谱在记录蛋白质的展开跃迁方面具有某些独特的优势。它可以对每残基进行监测，对折叠和未折叠状态以及可能的平衡中间体进行单独检测。这允许对感兴趣的蛋白质折叠的状态和协同性的详细视图和后续实验的正确解释。在这里，我们详细总结了这类实验的实践和理论方面。可以避免某些陷阱，并且可以在分析过程中进行有意义的简化。特别是对感兴趣的体系的核磁共振交换机制和弛豫性质有很好的了解是有益的。我们通过对GB1的折叠和展开状态的信号进行全局分析，展示了如何提取展开的准确值，以及不同的核磁共振检测和展开方法的限制。例如，常用的可交换酰胺可导致系统地测定蛋白质的热力学稳定性。我们给出了如何处理更复杂的蛋白质的几个观点，以及关于蛋白质在残基分辨率下稳定性的知识如何帮助理解拥挤条件下、相分离期间和高压下的蛋白质特性。

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来源期刊

Journal of Biomolecular NMR 生物-光谱学

CiteScore

6.00

自引率

3.70%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Biomolecular NMR provides a forum for publishing research on technical developments and innovative applications of nuclear magnetic resonance spectroscopy for the study of structure and dynamic properties of biopolymers in solution, liquid crystals, solids and mixed environments, e.g., attached to membranes. This may include: Three-dimensional structure determination of biological macromolecules (polypeptides/proteins, DNA, RNA, oligosaccharides) by NMR. New NMR techniques for studies of biological macromolecules. Novel approaches to computer-aided automated analysis of multidimensional NMR spectra. Computational methods for the structural interpretation of NMR data, including structure refinement. Comparisons of structures determined by NMR with those obtained by other methods, e.g. by diffraction techniques with protein single crystals. New techniques of sample preparation for NMR experiments (biosynthetic and chemical methods for isotope labeling, preparation of nutrients for biosynthetic isotope labeling, etc.). An NMR characterization of the products must be included.